KIF17 Dynamics and Regulation of NR2B Trafficking in Hippocampal Neurons

Distribution of YFP-KIF17 in hippocampal neurons.A, Dendritic localization of YFP-KIF17. Transfected hippocampal neurons were immunostained with anti-phosphorylated-NF-H mAb to discriminate axon (red) from dendrites. YFP-KIF17 (green) localizes mainly in dendrites and the cell body. Scale bar, 20 μm. B, Quantitative analysis of the axo/dendritic distribution of YFP-KIF17. The fluorescence intensity profile showing YFP-KIF17 (green) and NF-H (red) was measured using the fluorescence profile function of LSM510 software on an x–z plane following the line to obtain a profile containing cross sections of the axon, the cell body, and the dendrite at the same time.C, D, Three-dimensional reconstruction images of hippocampal neurons expressing YFP-KIF17. Ten-day-old cultures were transfected with YFP-KIF17 (green) and processed for immunodetection of synaptic clusters using anti-PSD95 mAb (blue). Rendering of 3D images from confocal Z stacks files was performed using Autodeblur and Autovisualize. YFP-KIF17 is fully restricted to the dendritic shaft and did not enter in postsynaptic regions.

Distribution of YFP-mLin10 in HA-KIF17-cotransfected hippocampal neurons. After 10 d of culture, hippocampal neurons were cotransfected with HA-KIF17 and YFP-mLin10. Twenty-four hours after transfection, the cells were fixed (see Materials and Methods), and HA-KIF17 was detected with the Alexa568 fluorescent secondary antibody. Overexpression of HA-KIF17 (red) induced a clear redistribution of YFP-mLin10 (green) from its initial perinuclear localization (as observed in control single-transfected cells) to the dendritic network. Scale bar, 20 μm. Statistical analysis of the redistribution of YFP-mLin10 in hippocampal neurons shows the percentage of cells with perinuclear or dendritic localization of YFP-mLin10 in single-transfected cells or HA-KIF17 cotransfected cells.Undefined corresponds to an unclear pattern with both perinuclear and dendritic localizations of the proteins.

Colocalization of YFP-KIF17 and NR2B. After 10 d of culture, hippocampal neurons were transfected with YFP-KIF17, and living cells were observed under a confocal laser-scanning microscope. Vesicular movement of YFP-KIF17 was first verified in the transfected neurons. The cells were then fixed, and immunodetection was performed as described in Materials and Methods.A, Transfected neuron showing YFP-KIF17 (green) and NR2B mAb (red). Shown is colocalization (yellow) of YFP-KIF17 and NR2B on the same vesicles (arrowheads). Higher magnification is shown in the blue inset. Scale bar, 20 μm.B, C, Localization of extrasynaptic and synaptic NR2B clusters. Hippocampal neurons expressing YFP-KIF17 (green) were permeabilized and immunostained (see Materials and Methods) for PSD95 mAb (blue) and NR2B pAb (red) (B) or synaptophysin mAb (blue) and NR2B pAb (red) (C). The mobile extrasynaptic NR2B subunits colocalize with YFP-KIF17 vesicles (yellow andarrowheads), whereas the immobile synaptic NR2B subunits colocalize with PSD95 or synaptophysin (pink). No colocalization of YFP-KIF17, PSD95, and NR2B or synaptophysin and NR2B was observed.

Inhibition of KIF17 in hippocampal neurons.A, Inhibition of KIF17 and NR2B expression by antisense oligonucleotide treatment. Hippocampal neurons were exposed (+) to 1 μm antisense or sense oligonucleotides against KIF17 for 3 d. Oligonucleotides were then washed out (−), and neurons were further cultured for 3 more days. After the cells were harvested, 20 μg of protein was separated by PAGE and analyzed by Western blotting with antibodies against KIF17, NR2B, and KIF5B. Bands were detected using ECL, films were scanned, and the bands were quantified using ImageJ. All measurements were standardized on tubulin content. Antisense oligonucleotide treatment (green curves) completely inhibited KIF17 expression and also led to a net decrease in the NR2B expression level. No inhibition was observed after sense oligonucleotide treatment (red curves). KIF5B expression was not affected by antisense or sense oligonucleotide treatment. After recovery from antisense oligonucleotide treatment, both KIF17 and NR2B expressions were restored. Insets on each plot show the bands detected by Western blot analysis (*) after treatment with sense (S) or antisense (A) oligonucleotides for KIF17, NR2B, and KIF5B. B, Western blot analysis of related proteins was performed as described above. Proteins were detected with specific antibodies (see Materials and Methods). Antisense oligonucleotide treatment completely inhibited KIF17 expression and reduced NR2B and mLin10 expression levels by 33 and 64%, respectively. NR2A expression level increased by 24%. No changes in expression level were observed for tubulin, KIF1A, NR2C, PSD95, and GluR1. C, Distribution of NR2B in KIF17-knocked-down hippocampal neurons. After 10 d of culture, hippocampal neurons were exposed to 1 μmFITC-tagged antisense oligonucleotides against KIF17. Twenty-four hours later, the cells were fixed, permeabilized, and processed for immunolocalization of NR2B as described in Materials and Methods. NR2B clusters were counted in a 20 μm area. Hippocampal neurons transfected with FITC-tagged antisense oligonucleotides (green) showed a marked decrease in the synaptic distribution of NR2B clusters (red). Higher magnification of control neurons or neurons exposed to antisense oligonucleotides (FITC-AS) is shown. Scale bar, 20 μm.D, Distribution of NR2B in dominant-negative overexpressing hippocampal neurons. After 10 d of culture, hippocampal neurons were transfected with YFP-610. Twenty-four hours later, the cells were fixed and processed for immunolocalization of NR2B. Hippocampal neurons transfected with YFP-610 (green) showed a similar decrease in the synaptic distribution of NR2B clusters (red), as observed after FITC-AS treatment. Note that accumulation of NR2B can be observed in the cell body of YFP-610-transfected neurons. Higher magnification of control neurons or YFP-610-overexpressing neurons is shown. Scale bar, 20 μm.

Distribution of NR2 subunits in hippocampal neurons. After 10 d of culture, hippocampal neurons were transfected with YFP-610, fixed, and processed for immunolocalization of NR2A, NR2B, NR2C, and PSD95. The number of positive clusters for each subunit and for PSD95 was counted in a 20 μm area. A 23% decrease in the number of NR2B clusters and an 18% increase in the number of NR2A clusters were observed in neurons overexpressing YFP-610 compared with control nontransfected neurons. No significant changes were observed for NR2C. The total number of PSD95 synaptic clusters did not change.